Soil compactor and method for operating a soil compactor

The invention claimed is: 1. A soil compactor, comprising: two vibrating compacting rollers arranged following each other in the direction of a roller axis of rotation and being rotatable about the same roller axis of rotation, a vibration excitation arrangement assigned to each one of the at least two vibrating compacting rollers for generating a vibrating movement of the at least two vibrating compacting rollers, a vibration detection arrangement assigned to each one of the two vibrating compacting rollers for providing vibration variables representing the vibrating movement of each one of the two vibrating compacting rollers, wherein the vibration detection arrangement is in association with each one of the two vibrating compacting rollers and includes at least one accelerometer for detecting an acceleration of each one of the two vibrating compacting rollers, a sensor arrangement assigned to the soil compactor for providing a feedback signal indicative of a structural vibration of the soil compactor, and a control unit for controlling one of the vibration excitation arrangements based on the vibration variables provided by the vibration detection arrangement with respect to the vibrating compacting rollers in such a way that the vibrating movements of the two vibrating compacting rollers have a predefined phase offset relative to one another and for receiving the feedback signal from the sensor arrangement for controlling the one of the vibration excitation arrangements, based on the feedback signal, such as to act on the predefined phase offset of the vibrating movements of the two vibrating compacting rollers with respect to one another, wherein each one of the vibration excitation arrangements assigned to the two vibrating compacting rollers comprises an inertial mass arrangement and an inertial mass drive, each one of the inertial mass drives comprising a drive motor, and each one of the inertial mass arrangements comprising at least one inertial mass drivable by one of the drive motors to rotate about an inertial mass axis of rotation, wherein each drive motor is a hydraulic motor, wherein only one hydraulic pump is provided for supplying all the hydraulic motors serially connected to the hydraulic pump with pressurized fluid, and wherein, for adjusting the phase offset of the vibrating movements of the vibration excitation arrangements assigned to the two vibrating compacting rollers, the control unit is arranged for controlling a bypass valve associated with the hydraulic motor of the one of the vibration excitation arrangements for adjusting the amount of pressurized fluid used in this hydraulic motor. 2. The soil compactor according to claim 1 , wherein a vibration variable of the vibration variables has an essentially periodic curve. 3. The soil compactor according to claim 1 , wherein all pressurized fluid passing through a first one of the hydraulic motors serially connected to the hydraulic pump also passes through a second one of the hydraulic motors. 4. The soil compactor according to claim 1 , wherein the hydraulic pump is a variable hydraulic motor. 5. A method for operating a soil compactor having at least two vibrating compacting rollers, wherein the at least two vibrating compacting rollers are arranged following each other in the direction of a roller axis of rotation, rotatable about the same roller axis of rotation and are excitable to implement a vibrating movement by a respective vibration excitation arrangement, comprising: detecting vibration variables by a vibration detection arrangement assigned to each one of the two vibrating compacting rollers; representing the vibrating movement of each of the vibrating compacting rollers; controlling one of the vibration excitation arrangements based on the vibration variables; detecting a structural vibration of the soil compactor; providing a feedback signal indicative of the structural vibration of the soil compactor; controlling one of the vibration excitation arrangements assigned to each of the two vibrating compacting rollers based on the vibration variables provided by the vibration detection arrangement with respect to the vibrating compacting rollers in such a way that the vibrating movements of the two vibrating compacting rollers have a predefined phase offset relative to one another providing each one of the vibration excitation arrangements assigned to the two vibrating compacting rollers with an inertial mass arrangement and an inertial mass drive, wherein each one of the inertial mass drives comprises a drive motor, and each one of the inertial mass arrangements comprises at least one inertial mass; driving each of said at least one inertial mass by one of the drive motors to rotate said inertial mass about an inertial mass axis of rotation, wherein each rive motor is a hydraulic motor; supplying all the hydraulic motors, which are serially connected to only a single hydraulic pump, with pressurized fluid; adjusting the phase offset of the vibrating movements of the vibration excitation arrangements assigned to the two vibrating compacting rollers; and controlling a bypass valve associated with the hydraulic motor of the one of the vibration excitation arrangements for adjusting the amount of pressurized fluid used in the hydraulic motor.